Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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BRISTLE, PROCESS FOR ITS PRODUCTION AND IMPLEMENT HAVING SUCH A BRISTLE
The invention relates to a bristle comprising a core of a comparatively
rigid, bending-elastic plastic and at least one layer of a rubberlike plas-
tic. The invention also relates to a process for the production of such
bristles and to implements equipped with such bristles.
Independently of the intended use of a brush, certain fundamental demands
are made on the bristles. These more particularly include the bending
elasticity, flexural strength and resistance to wear. Further and often
very differing requirements result from the intended use of the brush.
Thus, e.g. brushes for oral and body hygiene must be sufficiently soft to
avoid injury, whereas abrasively acting, industrial brushes must have hard
and rough bristles. Other technical brushes, such as car wash brushes, must
once again be smooth and pliable. This also applies in the case of polish-
ing brushes. Brushes or paintbrushes used for the application of media,
must have relatively closely juxtaposed, standing bristles for storing the
medium, whereas in other applications individual standing bristles or
bristle bundles are desired.
The action of a bristle on the surface of the object to be treated or
worked is decisively dependent on the surface characteristics thereof and
the bristle material. Generally bristles are produced from extruded plastic
monofilaments. As a result of the choice of the plastic it is essentially
only possible to influence the bending and wear resistance, but only to a
very limited extent the surface characteristics and the effectiveness of the
surface, apart from simple longitudinal profiles. Thus, numerous attempts
have been made in the prior art to modify the surface characteristics or the
effectiveness of the surface of bristles by additional measures in order to
better meet the requirements of each intended use.
In the literature reference list following the description, documents (1)
to (8) describe bristles with incorporated, abrasively acting particles for
different uses. It is in each case a question of giving the bristle a hard,
abrading action.
Another development referred to in documents (9) to (15) is to profile in
different ways the jacket of a bristle formed from a plastic monofilament.
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It is in each case a question of forming more or less sharp edges and this
extends to frayed structures.
All the aforementioned solutions with particle-filled or profiled, mono-
filament bristles suffer from the decisive disadvantage that the strength
characteristics, particularly the bending elasticity, flexural strength and
also the resistance to wear are significantly reduced, so that use must
once again be made of larger bristle diameters and/or higher quality plas-
tics. However, this is often impossible for use reasons and also leads to
undesired higher costs.
Other known proposals according to documents (16) to (21) aim at producing
the bristle from two plastic components, namely a plastic core and a coating
applied thereto either in the form of a jacket enveloping the core or in the
form of fibres applied to the core. In these known solutions the strength
characteristics of the bristle remain substantially controlled. To the
extent that the core has a smooth-walled jacket (16), (17), the bristle
action can only be insignificantly modified. If only the hard core is
profiled and a profile-following, rubber-elastic coating is applied (18),
the latter is rapidly worn away at the profile humps and the hard core is
exposed. To the extent that the core is flocked with fibres (20), the
bristle can only be used for specific purposes and is also complicated and
expensive to manufacture.
Among the last-mentioned proposals, document (21) proposes a bristle com-
prising an extruded, relatively stiff core of PA (polyamide) or high density
PE (polyethylene) and a soft, thermoplastic coating of natural or artificial
rubber. This known bristle is designed for toothbrushes, where the soft,
rubber-elastic coating is mainly intended to ensure a careful treatment of
the teeth and gums, whilst the stiff core ensures the necessary strength
characteristics for the bristle. However, such a bristle does not satisfy
the demands made during cleaning, because its surface is too smooth. It is
also unsuitable for applying media to an object.
On the basis of this prior art, the problem of the invention is to provide a
bristle which, whilst maintaining the necessary strength characteristics in
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the case of a soft surface also provides a good cleaning action and absorp-
tivity for media.
On the basis of a bristle comprising a core of a comparatively rigid,
bending-elastic plastic and at least one layer of a rubberlike plastic, the
invention solves this problem in that the rubberlike layer is profiled by
stamping against the core, preferably by hot stamping.
The invention is based on the surprising finding that a rubber-like plastic,
e.g. a thermoplastic elastomer, even with a very limited thickness, which
necessarily arises in the case of bristles and with toothbrushes is only a
few tenths of a millimetre, can be profiled by stamping or embossing, with-
out there being any shape recovery of the rubberlike plastic. A decisive
part is played by the relatively rigid core against which the stamping or
embossing forces can be applied. It is possible to implement fine to coarse
structures with any random shaping. Small profile depths are in particular
chosen in the case of bristles for oral and body hygiene, whereas greater
profile depths are used for cleaning or coating brushes for in the first
case receiving dirt and in the second application media.
The rubberlike layer can surround the core in jacket-like manner or also
only tonally and the profiling resulting from stamping can be provided over
the entire length of the bristle or only over partial lengths thereof.
In the case of the bristle constructed according to the invention the core
is made from a plastics material defining the bending and flexural strength
of the bristle and the rubberlike layer with its profiling from a plastics
material defining the surface action of the bristle on the object and the
resistance to wear. Through the choice of the two plastics and the nature
of the profiling, the bristle can be readily adapted to random requirements.
In a preferred embodiment the core is made from a plastics material having a
Shore hardness D>45 and the rubberlike layer from a plastics material with a
Shore hardness D<35. In a particularly preferred embodiment the Shore hard-
ness of the core plastic is D~65 and that of the rubberlike layer 20<D<35.
Materials fulfilling the aforementioned requirements are e.g. in the case
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of the core PE (polyethylene), PP (polypropylene) or PA (polyamide) and for
the rubberlike layer thermoplastic elastomers.
The profiling of the rubberlike layer can be formed by locally defined
depressions distributed over the circumference. Instead of this the pro-
filing can also run in the bristle extension direction, e.g. along gener-
atrixes or in helical manner. Finally, the profiling can also be prepon-
derantly oriented transversely to the bristle extension direction.
According to a further feature of the invention, to the profiled, rubberlike
layer is applied a film-like coating of a soft plastic clinging to its
profile. As a result a certain smoothing effect can be obtained on the
profiling without removing the surface action therefrom.
The core can be formed from one or more monofilaments. The first-mentioned
form is recommended for toothbrushes and body brushes, whereas the second is
better for industrial brushes and in particular car wash brushes. In this
particular application the bristles must be bending-soft, so as to be
applied in optimum manner to the contour of the surface to be cleaned and
also so as to carefully clean the surface. These bristles are subject to
very rapid wear from the free end. This means in the case of the bristle
according to the invention, that the rubberlike layer is firstly worn away
at the bristle ends. In the variant according to the invention with several
core monofilaments they are exposed in the from of fibres, which then still
ensure a careful action compared with a single, larger diameter core mono-
filament.
Normally bristles have a circular cross-section. However, in the case of
the construction according to the invention it is possible to implement any
other bristle cross-section, in that the core has a cross-section diverging
from the circular shape, e.g. a narrow, rectangular or cruciform or stellate
cross-section. The rubberlike layer can then have a circular cross-section,
so that it has a different thickness and can e.g. be more deeply stamped
in the thicker areas. Instead of this it can also have a cross-section
following the core cross-section, so that independently of the location of
the stamping equal-depth profiles can be produced and here again the core
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serves as an abutment.
Finally, the entire bristle constituted by the core and rubberlike layer can
be corrugated transversely to the bristle extension direction.
A good adhesion of the rubberlike layer to the core is obtained through a
surface structure on the core acting as a primer.
For the manufacture of the above-described bristle, the invention proposes
a process in which the core and the rubberlike layer are coextruded as a
strand and the rubberlike layer, with the strand moving, is profiled by
stamping against the core.
This process leads to a continuous bristle material, from which the bristles
can be cut, as desired, to length immediately after stamping. Instead of
this the bristle material can be wound and then the bristle is cut to length,
as desired, from the unwound strand at the time of brush manufacture.
In another variant of the process, the core and the rubberlike layer are
coextruded as a continuous strand, the strand is wound and the rubberlike
layer is profiled by stamping against the core on unwinding the strand. In
this process stamping can take place at the bristle material manufacturer or
only at the brush manufacturer. This process can also be advantageous if
the rubberlike layer is constituted by a slowly crosslinking elastomer and
the stamping process is only to take place at the end of the crosslinking
reaction.
In this process the rubberlike layer is preferably profiled by stamping
tools acting against one another and against the core and said tools can
produce different profiles. In the case of an only one-sided profiling the
stamping tool cooperates with an unprofiled counter-tool.
In a further variant of the process according to the invention, to the
profiled strand at the time of bristle material manufacture or prior to the
cutting to length of the bristles, a soft plastic can be applied in film-
like manner by extrusion, dipping, spraying or the shrinking on of a film,
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e.g. in order to smooth the profile.
In another variant of the process, the core and the rubberlike layer are
coextruded as a strand, the bristle is then cut to length from the strand
and then the rubberlike layer is profiled by stamping against the core.
In this process the film-like coating can be applied before or after cutting
to length by dipping, spraying, or shrinking on a film.
The inventively constructed bristle is usable for implements of the most
varied types. In the simplest case such a bristle can be directly used as
an interdental cleaner, either in the form of a stick or in a similar manner
to dental floss.
As opposed to this, a brush is provided with a plurality of bristles con-
structed according to the invention and said bristles can be provided in
separate arrangements. In particular, such a brush can have bristles with
differently profiled, rubberlike layers.
The invention is described in greater detail hereinafter relative to embodi-
ments diagrammatically represented in the attached drawings and which in
each case perspectively show in cross-section a bristle.
The bristle 1 according to fig. 1 has a core 2 of a bending-elastic, flex-
resistant plastic, e.g. PA, PP or PE and a rubberlike layer 3 surrounding in
jacket-like manner the core 2, e.g. of a thermoplastic elastomer. In the
rubberlike layer 3 is stamped a profile 4 in the form of locally defined,
circumferentially distributed depressions 5. Stamping takes place against
the rigid core 2.
In the embodiment according to fig. 2 the bristle 1 is only stamped with the
profile shown in fig. 1 over part of its length, whereas it is unprofiled
over the remaining length 6, which e.g. includes the fastening-side end of
the bristle. It otherwise once again comprises a core 2 of a rigid plastic,
the rubberlike layer 3 with the stamped in depressions and a film-like
coating 7, which covers the profiling and clings to the latter, but leads
to a certain smoothing effect. In the embodiment of fig. 3 the bristle once
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again comprises a core 2 and a rubberlike layer 3, which is only zonally
applied and runs on the core 2 in the form of longitudinal ribs, which are
profiled by transverse stamping, so as to obtain depressions 8 and boss-like
humps 9. In the embodiment according to fig. 4 the rubberlike layer 3 is
longitudinally profiled on the core 2 and the profile can be produced during
a coextrusion operation or by stamping. In addition, the rubberlike layer 3
can have depressions produced by stamping as in figs. 1 and 2 or transverse
stampings as in fig. 3.
Whereas in the embodiments according to figs. 1 to 4 at least the core has
a circular cross-section, fig. 5 shows a bristle with a core 2 having a
cruciform cross-section 10, whilst the rubberlike layer 3 has a circular
cross-section. Thus, it is thinnest in the region of the ends of the beam
of the cruciform cross-section 10. This leads to sharply defined abutments
against which the profile can be particularly well stamped, as indicated by
the arrows 11.
In the embodiment according to fig. 6 the bristle 1 once again has a core 2
with a circular cross-section. The rubberlike layer 3 enveloping it is
stamped with a wavy profile 12.
Fig. 7 shows an embodiment modified compared with fig. 1, in that the core 2
comprises four monofilaments 13, which can be positioned parallel or twisted.
The rubberlike layer 3 once again surrounds the core with a circular cross-
section and has on its jacket the stamped in profiling.
In the embodiment according to fig. 8 the core 2 has an elongated cross-
section. The rubberlike layer 3 has a constant thickness, so that it
follows the cross-section of the core 2 and a strip-like bristle is obtained,
which is e.g. only provided on its narrow sides with a stamped profile 4,
much as in fig. 3.
The bristle according to fig. 9 once again has a core 2 and a rubberlike
layer 3 with a profiling 4 resulting from stamping. As a variant compared
with the previously described bristles, the bristle 14 according to fig. 9
is corrugated transversely to the longitudinal extension.